CN204164549U - High temp. rotary joint - Google Patents

Abstract

The utility model relates to high temp. rotary joint.Comprise housing and outer tube, outer tube is contained in the endoporus of housing; It is characterized in that: outer tube is provided with sealed step, outer tube and housing tail end are tightly connected by the first movable sealing connection part, and outer tube and housing forward end are tightly connected by the second movable sealing connection part.In first movable sealing connection part, first Spherical Ring, middle cover and cylinder ring are sleeved on outer tube afterbody successively, first Spherical Ring interior edge face is connected with sealed step side by spring positioning component, first Spherical Ring outer spherical surface matches with middle interior surface, and middle interior surface matches with the outer spherical surface of the first Spherical Ring; Do not follow outer tube in the outer end center hole that cylinder ring is contained in middle cover to rotate; Middle cover flange part is connected with housing tail end; Second movable sealing connects similar to the second movable sealing connecting component structure and is arranged symmetrically with.Housing of the present utility model has stable dual-gripper, stability of rotation in the situation of running up, and extends the working life of equipment.

Description

High temp. rotary joint

Technical field

The utility model relates to a kind of connection sealed member be input to from static duct for flowing medium rotating equipment, and specifically a kind of high temp. rotary joint, belongs to technical field of mechanical.

Background technique

Swivel joint is flowing medium (liquid, gas etc.) is input to rotating equipment connection sealed member from static duct, is to solve run, drip, leak, energy saving, protection of the environment, the seal arrangement improved working conditions.When the flowing medium carried is high temperature media (as conduction oil), higher to the quality requirement of swivel joint.As at leather sector, need the conduction oil medium carrying high temperature, in existing technology, mainly there is coarse, the simple and crude shortcoming of profile in conventional swivel joint, the thermal losses in the duct of conduction oil medium, cause roller surface non-uniform temperature, cause nonwovens, leather, film etc. easily to rupture in process of production, affect manufacturing schedule.In addition, in use also easily there is the phenomenon of dielectric leakage in the high temp. rotary joint that present most of manufacturer manufactures, the easy initiation fire accident of leakage of this high temperature media, causes any property loss, serious even generation casualties.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of high temp. rotary joint, its reasonable in design, beautiful shape, bright and clean, and heat transfer effect is good, has dependable compensation to sealing wear, good seal performance, long service life.

Technological scheme according to the utility model provides: high temp. rotary joint, comprises housing and outer tube, and outer tube is contained in the endoporus of housing; It is characterized in that:

Described outer tube is provided with sealed step, and outer tube and housing tail end are tightly connected by the first movable sealing connection part, and outer tube and housing forward end are tightly connected by the second movable sealing connection part;

Described first movable sealing connection part comprises the first circlip for hole, middle cover, cylinder ring, the first straight pin and the first Spherical Ring, described first Spherical Ring, middle cover and cylinder ring are sleeved on outer tube afterbody cylindrical from inside to outside successively, first Spherical Ring is positioned at shell inner hole afterbody, first Spherical Ring interior edge face is connected with sealed step side on outer tube by spring positioning component, first Spherical Ring outer spherical surface matches with middle interior surface, and middle interior surface matches with the outer spherical surface of the first Spherical Ring; Block spacing by the first circlip for hole in the outer end center hole that described cylinder ring is contained in middle cover, cylinder ring is connected with middle cover by the first straight pin, can not follow outer tube rotation to make cylinder ring; The flange part of described middle cover is fixedly connected with housing tail end;

Described spring positioning component comprises the first spring seat, the second spring seat, pressing plate and spring, first spring seat, the second spring seat are sleeved on outer tube cylindrical successively, first spring seat is connected with the first Spherical Ring interior edge face, pressing plate to be contained in the second spring seat endoporus and to embed in the keyway of the second spring seat, pressing plate is fixedly mounted on outer tube cylindrical, and described spring to be arranged on the second spring seat and outer tube between sealed step;

Described second movable sealing connection part comprises the second Spherical Ring, end cap, the second straight pin, guide ring and the second circlip for hole; Described second Spherical Ring, end cap and guide ring are enclosed within the anterior cylindrical of outer tube from inside to outside successively, second Spherical Ring is positioned at shell inner hole front portion, second Spherical Ring interior edge face is connected with sealed step opposite side on outer tube, second Spherical Ring outer spherical surface matches with end cap internal surface, block spacing by the second circlip for hole in the outer end center hole that guide ring is contained in end cap, guide ring is connected with end cap by the second straight pin, can not follow outer tube rotate to make guide ring; The flange part of described end cap is fixedly connected with housing forward end.

As further improvement of the utility model, between the flange part end face of described middle cover and housing breech face, clamp the first sealing gasket, between the flange part end face of described end cap and housing forward end face, clamp sealing gasket second sealing gasket.

As further improvement of the utility model, the bore area of described first spring seat is provided with seal groove, and seal groove is built with an O type circle.

As further improvement of the utility model, described second spring seat is provided with the some spring guides parallel with outer tube, and some described spring guides are circumferentially uniform at the second spring seat, and every root spring guide cylindrical is set with a spring.

As further improvement of the utility model, described spring adopts cylindrically coiled spring.

As further improvement of the utility model, described outer tube head end is provided with quick change flange mechanism, described quick change flange mechanism comprises quick change flange, little pressing plate and half point ring, the neck of described outer tube front end is provided with annular mounting groove, described half point ring set is contained in this annular mounting groove, little pressing plate is fixedly mounted in this annular mounting groove, and half point ring can not be deviate from by little pressing plate is spacing; Described quick change flange sleeve is on half point ring, and the endoporus side face of described quick change flange and the outer peripheral surface of half point ring are the suitable conical surface, and quick change flange can only move backward and can not move forward under the restriction of half point ring.

As further improvement of the utility model, described outer tube tail end center is provided with interior pipe through-hole, and tail-hood is arranged on outer tube tail end, covers during tail-hood is fixedly connected on, tail-hood central through bore is connected with the interior pipe through-hole of outer tube, has clamped tail seal pad between tail-hood seam end face and outer tube breech face.

As further improvement of the utility model, the inwall of described interior pipe through-hole is provided with at least one closure gasket groove, and closure gasket groove is built with the 2nd O type circle.

As further improvement of the utility model, described outer tube front-end face is provided with end part seal pad.

As further improvement of the utility model, described end part seal pad adopts red copper pad.

compared with the prior art the utility model, has the following advantages:

(1), housing of the present utility model has stable dual-gripper, stability of rotation in the situation of running up; Outer tube and housing tail end are tightly connected by the first movable sealing connection part, and outer tube and housing forward end are tightly connected by the second movable sealing connection part, solve high temperature media heat losses problem, and are conducive to the working life extending equipment;

(2), outer tube tail end center of the present utility model is provided with interior pipe through-hole and installs tail-hood, interior pipe through-hole is as the supporting structure of interior pipe, interior pipe and outer tube cooperation place are provided with closure gasket groove, closure gasket groove keeps isolated to make interior pipe and outer tube in cooperation place built with O type circle, prevent the cold oil in return line from entering in hot oil pipeline, have impact on the transmission of the thermal efficiency, improve the utilization ratio of the energy;

(3) spring, in the utility model adopts cylindrically coiled spring, spring only needs a rotation direction (or left or right is not limit), changing over Q type, RY type structure spring needs the trouble of left and right orientation, overcomes the reverse stressed and Problem of Failure of the spring easily caused because of the wrongly installed rotation direction of spring;

(4) additionally use many spring structures on the second spring seat, in the utility model and outer tube have employed between sealed step many spring structures are distributed in distribute, ensure that sealing surface uniform force;

(5), the utility model can double as low temperature, low pressure swivel joint use, reduction client unit user cost;

(6), the utility model beautiful shape, any surface finish, housing, for form without surplus precision casting, reduces machining cost.

Accompanying drawing explanation

Fig. 1 is the structural front view of the utility model embodiment.

Fig. 2 is the left view of Fig. 1.

Embodiment

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

As shown in the figure: the high temp. rotary joint in embodiment is primarily of tail-hood 1, first hexagon head bolt 2, first spring washer 3, tail seal pad 4, first circlip for hole 5, middle cover 6, cylinder ring 7, straight pin 8, first hexagon socket cap head screw 9, first sealing gasket 10, first Spherical Ring 11, first spring seat 12, housing 13, one O type circle 14, second spring seat 15, pressing plate 16, second hexagon socket cap head screw 17, cylindrically coiled spring 18, spring guide 19, outer tube 20, second sealing gasket 21, second Spherical Ring 22, second spring washer 23, second hexagon head bolt 24, end cap 25, second straight pin 26, guide ring 27, second circlip for hole 28, quick change flange 29, little pressing plate 30, half point ring 31, 3rd hexagon socket cap head screw 32, end part seal pad 33, 2nd composition such as component such as O type circle 34 grade.

As shown in Figure 1 and Figure 2, described outer tube 20 is contained in the endoporus of housing 13, outer tube 20 is provided with sealed step 35, and outer tube 20 and housing 13 tail end are tightly connected by the first movable sealing connection part, and outer tube 20 and housing 13 front end are tightly connected by the second movable sealing connection part.

The structure of described first movable sealing connection part as shown in Figure 1, it is primarily of the first circlip for hole 5, middle cover 6, cylinder ring 7, first straight pin 8, first hexagon socket cap head screw 9 and the first Spherical Ring 11 form, described first Spherical Ring 11, middle cover 6 and cylinder ring 7 are sleeved on outer tube 20 afterbody cylindrical from inside to outside successively, first Spherical Ring 11 is positioned at housing 13 endoporus afterbody, first Spherical Ring 11 interior edge face is connected with sealed step 35 side on outer tube 20 by spring positioning component, first Spherical Ring 11 outer spherical surface matches with middle cover 6 internal surface, middle cover 6 internal surface matches with the outer spherical surface of the first Spherical Ring 11, block spacing by the first circlip for hole 5 in the outer end center hole that described cylinder ring 7 is contained in middle cover 6, cylinder ring 7 is connected with middle cover 6 by the first straight pin 8 that [first straight pin 8 one side of something is embedded in cylinder ring 7 outer wall, in addition in the half of keyway be embedded on the center bore inner wall of middle cover 6 outer end], outer tube 20 can not be followed to make cylinder ring 7 and rotate, the flange part of described middle cover 6 is fixedly connected with by the first hexagon socket cap head screw 9 with housing 13 tail end.

The structure of described spring positioning component as shown in Figure 1, it is primarily of the first spring seat 12, second spring seat 15, pressing plate 16, second hexagon socket cap head screw 17 and spring 18 form, first spring seat 12, second spring seat 15 is sleeved on outer tube 20 cylindrical successively, first spring seat 12 is connected with the first Spherical Ring 11 interior edge face, pressing plate 16 to be contained in the second spring seat 15 endoporus and to embed in the keyway of the second spring seat 15, pressing plate 16 is fixedly mounted on outer tube 20 cylindrical by the second hexagon socket cap head screw 17, described spring 18 to be arranged on the second spring seat 15 and outer tube 20 between sealed step 35.

In the utility model embodiment, described second spring seat 15 is provided with the some spring guides 19 parallel with outer tube 20, and described some spring guides 19 are circumferentially uniform at the second spring seat 15, and every root spring guide 19 cylindrical is set with a spring 18.Due to the second spring seat 15 and outer tube 20 have employed many spring 18 structural distribution between sealed step 35, thus ensure that sealing surface uniform force.

As shown in Figure 1, it forms primarily of the second Spherical Ring 22, second spring washer 23, second hexagon head bolt 24, end cap 25, second straight pin 26, guide ring 27 and the second circlip for hole 28 structure of described second movable sealing connection part; Described second Spherical Ring 22, end cap 25 and guide ring 27 are enclosed within the anterior cylindrical of outer tube 20 from inside to outside successively, it is anterior that second Spherical Ring 22 is positioned at housing 13 endoporus, second Spherical Ring 22 interior edge face is connected with sealed step 35 opposite side on outer tube 20, second Spherical Ring 22 outer spherical surface matches with end cap 25 internal surface, block spacing by the second circlip for hole 28 in the outer end center hole that guide ring 27 is contained in end cap 25, guide ring 27 is connected with end cap 25 by the second straight pin 26, can not follow outer tube 20 rotate to make guide ring 27; The flange part of described end cap 25 is connected by the second hexagon head bolt 24 and the second spring washer 23 with housing 13 front end.

As shown in Figure 1 and Figure 2, in the utility model embodiment, described outer tube 20 tail end center is provided with interior pipe through-hole, tail-hood 1 is arranged on outer tube 20 tail end, tail-hood 1 is fixedly connected on middle cover 6 by the first hexagon head bolt 2 and the first spring washer 3, tail-hood 1 central through bore is connected with the interior pipe through-hole of outer tube 20, between tail-hood 1 seam end face and outer tube 20 breech face, clamped tail seal pad 4.But in actual production manufactures, described interior pipe through-hole and tail-hood 1 are not required design, as in one-way flow occasion, it can dispense.

Described interior pipe through-hole is as the supporting structure of interior pipe, interior pipe and outer tube 20 cooperation place [on the inwall of interior pipe through-hole] are provided with three seals annular groove, closure gasket groove is built with the 2nd O type circle 34, keep isolated to make interior pipe and outer tube 20 in cooperation place, prevent the cold oil in return line from entering in hot oil pipeline, have impact on the transmission of the thermal efficiency, improve the utilization ratio of the energy.

As shown in Figure 1, in order to improve sealability of the present utility model further, clamp the first sealing gasket 10 between the flange part end face of described middle cover 6 and housing 13 breech face, between the flange part end face of described end cap 25 and housing 13 front-end face, clamp the second sealing gasket 21.The bore area of described first spring seat 12 is provided with seal groove, and seal groove is built with an O type circle 14.Described outer tube 20 front-end face is provided with end part seal pad 33, and described end part seal pad 33 preferably adopts red copper pad.

As shown in Figure 1 and Figure 2, for the ease of the quick links of the utility model and other pipe-line equipments, described outer tube 20 head end is provided with quick change flange mechanism, described quick change flange mechanism forms primarily of quick change flange 29, little pressing plate 30, half point ring 31 and the 3rd hexagon socket cap head screw 32, the neck of described outer tube 20 front end is provided with annular mounting groove, described half point ring 31 is sleeved in this annular mounting groove, little pressing plate 30 is fixedly mounted in this annular mounting groove by the 3rd hexagon socket cap head screw 32, and half point ring 31 can not be deviate from by little pressing plate 30 is spacing; Described quick change flange 29 is enclosed within half point ring 31, and the endoporus side face of described quick change flange 29 and the outer peripheral surface of half point ring 31 are the suitable conical surface, and quick change flange 29 can only move backward and can not move forward under half point ring 31 limits.

During concrete installation application, tail-hood 1 side opening flange connects with inlet pipeline, and housing 13 side opening flange connects with media outlet pipeline.

Claims (10)

1. high temp. rotary joint, comprise housing (13) and outer tube (20), outer tube (20) is contained in the endoporus of housing (13); It is characterized in that:

Described outer tube (20) is provided with sealed step (35), and outer tube (20) and housing (13) tail end are tightly connected by the first movable sealing connection part, and outer tube (20) and housing (13) front end are tightly connected by the second movable sealing connection part;

Described first movable sealing connection part comprises the first circlip for hole (5), middle cover (6), cylinder ring (7), first straight pin (8) and the first Spherical Ring (11), described first Spherical Ring (11), middle cover (6) and cylinder ring (7) are sleeved on outer tube (20) afterbody cylindrical from inside to outside successively, first Spherical Ring (11) is positioned at housing (13) endoporus afterbody, first Spherical Ring (11) interior edge face is connected by upper sealed step (35) side of spring positioning component and outer tube (20), first Spherical Ring (11) outer spherical surface matches with middle cover (6) internal surface, middle cover (6) internal surface matches with the outer spherical surface of the first Spherical Ring (11), interior the first circlip for hole (5) that also passes through of outer end center hole that described cylinder ring (7) is contained in middle cover (6) blocks spacing, cylinder ring (7) is connected with middle cover (6) by the first straight pin (8), can not follow outer tube (20) rotate to make cylinder ring (7), the flange part of described middle cover (6) is fixedly connected with housing (13) tail end,

Described spring positioning component comprises the first spring seat (12), second spring seat (15), pressing plate (16) and spring (18), first spring seat (12), second spring seat (15) is sleeved on outer tube (20) cylindrical successively, first spring seat (12) is connected with the first Spherical Ring (11) interior edge face, pressing plate (16) to be contained in the second spring seat (15) endoporus and to embed in the keyway of the second spring seat (15), pressing plate (16) is fixedly mounted on outer tube (20) cylindrical, described spring (18) is arranged between the second spring seat (15) and the upper sealed step (35) of outer tube (20),

Described second movable sealing connection part comprises the second Spherical Ring (22), end cap (25), the second straight pin (26), guide ring (27) and the second circlip for hole (28), described second Spherical Ring (22), end cap (25) and guide ring (27) are enclosed within outer tube (20) anterior cylindrical from inside to outside successively, it is anterior that second Spherical Ring (22) is positioned at housing (13) endoporus, second Spherical Ring (22) interior edge face is connected with upper sealed step (35) opposite side of outer tube (20), second Spherical Ring (22) outer spherical surface matches with end cap (25) internal surface, interior the second circlip for hole (28) that also passes through of outer end center hole that guide ring (27) is contained in end cap (25) blocks spacing, guide ring (27) is connected with end cap (25) by the second straight pin (26), outer tube (20) can not be followed to make guide ring (27) to rotate, the flange part of described end cap (25) is fixedly connected with housing (13) front end.

2. high temp. rotary joint as claimed in claim 1, it is characterized in that: between the flange part end face of described middle cover (6) and housing (13) breech face, clamped the first sealing gasket (10), between the flange part end face of described end cap (25) and housing (13) front-end face, clamped sealing gasket second sealing gasket (21).

3. high temp. rotary joint as claimed in claim 1, it is characterized in that: the bore area of described first spring seat (12) is provided with seal groove, seal groove is built with an O type circle (14).

4. high temp. rotary joint as claimed in claim 1, it is characterized in that: described second spring seat (15) is provided with the some spring guides (19) parallel with outer tube (20), described some spring guides (19) are circumferentially uniform at the second spring seat (15), and every root spring guide (19) cylindrical is set with a spring (18).

5. high temp. rotary joint as claimed in claim 4, is characterized in that: described spring (18) adopts cylindrically coiled spring (18).

6. high temp. rotary joint as claimed in claim 1, it is characterized in that: described outer tube (20) head end is provided with quick change flange mechanism, described quick change flange mechanism comprises quick change flange (29), little pressing plate (30) and half point ring (31), the neck of described outer tube (20) front end is provided with annular mounting groove, described half point ring (31) is sleeved in this annular mounting groove, little pressing plate (30) is fixedly mounted in this annular mounting groove, and half point ring (31) can not be deviate from by little pressing plate (30) is spacing; Described quick change flange (29) is enclosed within half point ring (31), the endoporus side face of described quick change flange (29) and the outer peripheral surface of half point ring (31) are the suitable conical surface, and quick change flange (29) can only move backward and can not move forward under half point ring (31) restriction.

7. high temp. rotary joint as claimed in claim 1, it is characterized in that: described outer tube (20) tail end center is provided with interior pipe through-hole, tail-hood (1) is arranged on outer tube (20) tail end, tail-hood (1) is fixedly connected on middle cover (6), tail-hood (1) central through bore is connected with the interior pipe through-hole of outer tube (20), has clamped tail seal pad (4) between tail-hood (1) seam end face and outer tube (20) breech face.

8. high temp. rotary joint as claimed in claim 7, it is characterized in that: the inwall of described interior pipe through-hole is provided with at least one closure gasket groove, closure gasket groove is built with the 2nd O type circle (34).

9. high temp. rotary joint as claimed in claim 1, is characterized in that: described outer tube (20) front-end face is provided with end part seal pad (33).

10. high temp. rotary joint as claimed in claim 9, is characterized in that: described end part seal pad (33) adopts red copper pad.